Screw-machine.



J. S. BROUGHTON" SCREW MACHINE.-

APPLICATION FILED MAR. 7, 1908;

945,486. Patnted Jan.4,1910.

8 SHEETS-SHEET 1.

N v MZNESSES: Mia-W702,

M Q iM/M J. S. BROUGHTON.

' SCREW MACHINE APPLICATION FILED MAR. 7 1908.

Patented J an. 4, 1910.

8 SHEETS-SHEET 2.

wmv

Vii V J. S. BROUGHTON.

SCREW MACHINE.

APPLICATION FILED MAR.7. 1908.

945,486, Patented Jan. 4, 1910. I

8 SHEETSSHEET 2 "7 F 012 Q 47 I WZTNESSES: [vain r018,

Ara m J. S. BROUGHTON SCREW MACHINE.

APPLICATION FILED MAR. 7, 1908.

Patented J an. 4, 1910.

8SHEETSSHEET 4.

' /jz;,; 44 9 v 751.7 W

J. S. BROUGHTON.'

SCREW MACHINE.

APPLICATION FILED MAIL? 1908.

945,486. Patented Jan.4, 1910.

8 SHEETSSHEET 5;

5 mcjkmt ATrl zst J. S. BROUGHTON.

SCREW MACHINE.

APPLICATION FILED MAR. 7, 1906.

945,486, Patented Jan.4,1910. I

8 SHEETS-SHEET 6.

- MDT/V7012, Will/K 21516217:

ATTl J J. S. BROUG HTON.

SCREW MACHINE.

APPLICATION FILED MAB..7, 1908.

945,486. Patented Jan. 4, 1910.

8 SHEETSSHEET 7.

J. S. BROUGHTON.

SCREW MACHINE.

APPLICATION FILED MAR. 7, 1908.

945,486. Patented Jami 1910.

8 SHEETSSHEET 8 [Wm 2 02a,

4O I form, in a single machine, a series ofi pera- JOHN S. BROUGHTON OF LAKEWOI JD, OHIO.

SCREW-MACHINE.

To all whom it mag concern:

Be it known that 1, JOHN S. BRoUeH'roN,

residing at Lakewood, in the county of Cuyahoga andState of Ohio, have invented a certain new and useful Improvement in Screw-Machines. of which the following is a full, clear, and exact description, reference being had to the accompanying drawings.

This invention relates to machines for making large screws, or bolts, such as are known to the trade as coach screws, and has for its objects to produce a machine of this type which, while comparatively simple of construction, ill automatically perform the operations 0 preliminarily pointing or coning a headed blank, preliminarily threading said blank, providing the blank thus threaded with what is known to the trade as a gimlet point, finishing the threads applied to the blank by the former threading operation, and ejecting the finished screw or bolt.

In carrying out my invention, the blanks,

each consisting-of a cylindrical body having turret heads are intermittently rotated to subject the blanks carried by said holders ...successively to the operations above referred to.

By my invention, I am enabledlto pertions, which, so far as I' am advised, have heretofore been accomplished only by the use of a corresponding numberof separate machines, and to perform all such operations simultaneously and automatically with marked efficiency, and to reduceito a minimum the labor and other expense'necessary for producing the finished articles.

Generally "speaking, the virinz'litio'n may be defined as 'consisting of theeombinations of elements embodied in the elaiinshereto annexed and illustrated in one embodiment i Specification of Letters Patent.

automatically in the accompanying drawings forming part hereof wherein- Figure 1 represents a side-elevation of a machine constructed'in accordance with my Patented Jan. 4, 19110, Application'filed March 7, 1908. SerialNo. 419,671.

invention; Fig, 2 represents a plan view of the machine shown in F ig. 1, the blank-receiving hopper being omitted for clearness of illustration; Fig. 3 represents a rear elevation of such machine; Figs. 4, 5, 6 and 7 represent vertical sectional views on the correspondingly-numbered lines of Fig. ,1, the. latter View being enlarged; and Figs. 8 to 30 inclusive represent detail views of various portions of the machine to which reference will be made hereinafter.

- The machine consists generally of a power shaft, a turret-head shaft driven thereby, a series of holders forblanks carried by the turret heads, spindles for rotating the holders, means for rotating. said spindles, means for reciprocating said spindles and the holders'thereon, a series of cutting or operating devices corresponding to the hold ers, means for feeding blanks to the holders successively, a shaft, and connections whereby said shaft may control the reciprocation,

rotation, and the opening and closing of the holders, the opening and closing of the cut.-

ting devices, the feeding of the blanks to the holders successively, and the various other operations of the machine.

The various portions of the machine are supported by a frame, said frame coniprising generally a base 1 supported by brackets 2, and a horizontal frame-work 3 supported from the base 1 by brackets or standards 4. The horizontal frame work 3 supports the various movable parts thereabove and is provided at'the front end thereof with an upwardly projecting bracket 5. This bracket supports the hopper of the feeding mechanism, which mechanism will now be described.

F ceding mechanism .The blankfeeding mechanism comprises a hopper 6 mounted on an inclined shaft which projects through the inclined bearing 7 at the upper end of bracket 5 and is provided at its lower end 10 is rotated continuously by means of a horizontal shaft 12 which is journaled-in the brackets 4 and has at the front end thereof a sprocket wheel 13 by means of which and a corresponding sprocket wheel 14 on shaft 10 and a chain 15, shaft 10 and hopper 6 are continuously rotated.

16 denotes an inclined guideway or chute having pivoted to its upper end the fork 17. This fork consists of a pair of parallel spaced members united by a pair of upwardly offset connections 18 and 19, the latter connection being located at the point at which the fork is pivoted to the chute 16.

The front ends of the parallel members of the fork are curved upwardly, asshown in Fig. 1, and the rear ends are tapered, as shown at 20.

21 denotes a rock shaft which is journaled at the upper end of chute 16 and to which the fork 17 is secured. This rock shaft projects laterally from chute l6 and is provided with a rearwardly projecting arm or lever 22 rigid therewith and connected to a link rod 23, the lower end whereof is secured to a lever 24 (see Fig. 7) which extends trans-' versely of the machinebelow shaft 12,11aving its opposite end pivoted to a shaft 25,

supported between a pair of brackets 26 on the base 1. Shaft 12 is providedwith a cam '27 adapted to engage lever 24 and thereby operate fork 17 through said lev er and the connections above described. The chute 16 comprises a pair of spaced members or plates connected by upwardly offset straps 28, preferably integral therewith.

29 denotes a thin guide and retaining member supported by said straps and spaced from the au acent upper edges of the chute members. Member 29 projects upwardly be yond the upper strap 28 and has its end bent upwardly, as shown at 30. It will be observedfrom Fig. 2, that member 29 is sufficiently narrow to pass between the rear ends 20 of the fork 17. v

With the parts arranged as described, it will be apparent that, for every revolution of shaft 12, there will normally be an oscillation of the fork 17. WVhen the lever 24 is in contact with the low portion of the cam 27 the front end of fork 17 will drop by gravity into the hopper. When 'the projection of the cam engages lever 24, the rear end of fork 17 is depressed and the front end'elevated. The parts are so proportioned that, when lever 24 is in its lowermost position, fork 17 forms in effect a continuation of chute 16, with end 20 below member 30.

The operation of the fork isnormally to receive, by the rotation of the hopper, one or more blanks between the members thereof, the heads of the blanks resting on the tops of said members. When the fork is tilted upwardly, these blanks drop by gravity into ames the chute 16, the connections 18 and 28 being offset sufiiciently topermit the heads to drop down the fork and down into the lower end of the chute. Should the chute be filled with blanks to such a height that all ofthe blanks in the fork 17 cannotpass off the end 20, fork 17 will be retained-in its elevated posi tion by reason of the heads of the blanks therein engaging member 30, which now overhangs the upper surface or 20. When in this position, lever 24 is in its lowermost position and is not affected by the cam 27. As soon as the blanks pass out of the end 20 of the fork, the fork again drops by gravity and the feeding operation is again resumed.

The lower or discharge end of chute 16 is in substantially the same horizontal plane as the axis of the adjacent holder, but is located at one side thereof, as will appear by reference to Fig. 2. For the purpose of delivering blanks from the chute to said holder, 1 provide a rock shaft 31 which is journaled at one side of the machine and is provided with an arm 32 rigid therewith, to which arm there-is pivoted a carrier 33, said carrier extending transversely of the machine and having a pin 34 at its upper end engaging a fork 35 at the upper end of arm 32. (See Fig. 11.) I

For the purpose of moving the carrier intermittently, the shaft 31 is operated as follows :this shaft is provided with a spring 36 surrounding the same andhaving one end engaging a fixed part of the frame while 'the other end is inserted into collar-37 :se

cured to said shaft by means of a set screw 38 (see Fig. 2). Spring 36 is under torsion and tends to rotate shaft 31 in a direction to throw carrier 33 inwardly. The rotation of shaft 31 by its spring is normally prevented by means of a curved arm 39, (see Figs. 5 and 24) which engages a lever 40 pivoted to the bracket 41 at the opposite side of the frame from shaft 31. This lever is held in contact with lever 39 by-means of the spring 36, and said lever is operated by a cam 43 on-shaft 12. The major portion of the outer surface of this cam is concentric with shaft 12, but is provided with a recess 44 therein. When the roller between the branches of lever 40 enters recess 44, said lever is depressed by lever 39, and carrier 33 will be moved quickly inwardly, the inward movement of said carrier being determined by the depth of recess 44. Further rotation of shaft 12 elevates lever 40 and rocks shaft 31 in the reverse direction through lever 39.

Thus, for every revolution of shaft12', carrier 33 will be reciprocated from its receivin Fig. 11. As appears from said figu're, the

carrier reciprocates within a guide 46 provided in the side of the frame. The carrier is provided near the inner endand in the lower surface thereof with a recess 47 and has pivoted to its inner end within said recess a finger 48. This finger has. an upwardly curved portion which projects beyond the inner end of the carrier and is ada ted to receive the lowermost blank 49. in t e chute 16. The upper end of finger 48, when the parts are in the positions shown in Fig. 11 (which shows the carrier in its extremeoutward position) engages the lower end of the inner member of the chute, there by holding the finger open against. the action of spring 50, and enabling it to receive the lowermost blank from the chute. As soon as the carrier is moved inwardly by arm 32, the-upper end of the finger engaged from the chute and spring 50 causes the finger to grip the blank securely between itself and the inner or front end of the carrier. The manner in which the blank is delivered to the proper holder will be described hereinafter in connection with the appropriate mechanism.

Blank holding mechanism and means for operating the same.The blank-holding and operating mechanism comprises generally a turret shaft having thereon a pair of turretheads supported in suitable bearings, a's'uitable number of holders (in the embodiment shown herein, four) each having a spindle which extends through said turret heads to.- ward the rear of the machine, with means for rotating said turret shaft intermittently,

means for reciprocating the holder spindles.

intermittently, means for rotating said spin-- dles, means for periodically reversing the rotation of said spindles, and means for automatically causing each holder to receive and eject a blank. The frame work 3 is provided with apair for the turret heads are shown in detail in Fig. 29, To prevent lateral movement thereof, the turret heads are p'rovided each, within opposite faces thereof, with an annulafr recess 53 54*, re- 'spectively, adapted to receive corresponding projections in turretgheads 51 and 52 respec 'tively.

55 denotes a shaft section-which connects said turret heads and is preferably cast therewith. The rear turret head" 54 is provided with a central recess for the reception of the flanged end of an enlarged driveshaft section 55 which extendsv rearwardly through a bearing 56 supported by a bracket 57 at the rear of the machine, shaft 55 be ing provided with mechanism for rotating the same intermittently, which will be described hereinafter.

- It will be noted that theshaft section 55 is materially reduced as compared withsection 55*, such reduction sible' by reason of the fact that the spindles 58, 59, 60 and 61, which are connectedrespectively with the holders 62,. 63 64 and 65,

extend through both turret heads and assist shaft section 55 in preventing relative rotary movement between said heads. 4 and 6.) The flanged end of shaft section 55 's; secured to the rear turret head in any the mechanism for automatically opening (See Figs.-

being rendered posand closing 'the holders. For rotating these spindles, I provide the following construction :-66 denotes a shaft which is supported between the turret heads 51 and 52 and is driven by means of a belt 67, the shaft being provided with fast and loose pulleys 68 and 69. Shaft 66 is provided which meshes with a gear (see Fig. 6). Spindles 58,69 and 61 are provided with similar intermeshing gears, whereby each spindle is driven in a reverse direction from the precedingiaandfollowing spindles in the series. Each of these spindies 58, 59, 60 and 61 is provided with a pulley preferably formed'as the hub of its "car, it 72, 73, 74 and 75; and each spindle has applied thereto a spacing sleeve (see 58", Fig. 2) which extends between the front of its pulley hub and the front turret head, serving to take care of the forwardthrust of the spindles-when reciprocated (as here-' with a gear70, 71 on spindle 60 ina'fter described) and prevent the forward movement of the gears on the spindles during such reciprocation, the gears being secured to the spindles by long keyways.

As stated hereinbefore, turret shaft 5 5 is rotated intermittently, being advanced a quarter of a turn periodically whenever the operations of the spindles are temporarily suspended. Itwill heapparent that whenever a rotation of the turret shaft is made, a different gear will be brought into mesh with gear 70, which new gear is rotating in. a direction the reverse of that which gear 70 has imparted to its predecessor. To relieve the gears from the shock due to the sudden change indirection of rotation and to render such change noiseless, I have provided a belt 7 6 which contacts with the particular pulleyson the spindles that may be in the uppermost and lowermost positions, as will. appear from Fig. 6. The sides of this belt extend around pulleys 77 and 78, the former being supported from a shaft 79 formingpart of an angle'lever which is pivotally connected to turrethead 52." (See Fig.2.)

For the purpose of tightening the belt the} therein adapted to receive rection the reverse iiiwas

inwardly extending arm of this lever is prol vided with a lug 80 having a set screw 81 threaded therethrough and engaging the turret head. Y By tightening this set screw, the angle lever may be swung outwardly to tighten the belt. Shafts 79 and 66 are in the same horizontal line with spindles 58 and 60. With this arrangement, when the turret shaft is given a quarter of a revolution, by means to be described hereinafter, pulleys 72 and 7 1 engage the belt prior to the engagement of the gear on spindle 59 with gear 70. In this manner, the gears are relieved from the sudden shock which would be caused by their direct engagement with the driving gear while rotating in a di' from that in which the driving gear is being rotated. This effects a comparatively noiseless reversal of the gears and avoids jars and breaking of gear teeth. I

For the purpose of rotating shaft 12, a sufiicient number of idle gears 82, 83, and 81 are interposed between the driving gear 85 on rear end of shaft 66'and a train of reduction gearing comprising a large gear '86 which meshes with the the "series of idlers, the said gear 86 being rigid with a shaft 87 to which a reducing car 88 is secured, the latter gear meshing with the large gear 89 which drives shaft 12. Shafts for gears 82, 83, 84, 86 and 88 are carried by a quadrant 90, the upper .en which is pivoted-to a projection from the turret head 52.. This quadrant isprov'ided with an arc-shaped member 91 having a slot. 92 therein by .means of which and a bolt .93

the quadrant may be swung inwardly or outwardly according to the size of the gears 8.8 and 89. By varying the size of such gears, the speed of shaft 12 may be regulated to cut a longer or shorter thread upon thev blanks carried by the holders.

For the purpose of intermittently rotatin the turret shaft a sufiicient distance to shift a blank from one set of operating members to another, I provide the construction shown in Flgs. 1, 2,

3 and 4:. As will appear from' these figures, the rear end of shaft 55* has applied thereto a sprocket 91 provided with a forwardly projecting hub 95 which extends through bearings 50 and is provided at its front end withan arm 96 carrying a pawl 97 which overhangs a collar 98 rigid with shaft 55. This collar is provided, in thiscase, with four notches 99 the lower end of the pawl. 100 denotes asprocket chain, one

end of which is vided with a roller 104; adaptedtoengage lowermost gear 84 in dof' fastened to lever-101 and the I other end of which is provided with a weight a lever 101. As shaft 12 rotates, roller 110-t depresses lever 101 and rotates sprocket 9t backwardly a quarter of a turn, lifting weight 102. As roller 10% rises, weight 102 rotates sprocket 94 and rotates shaft 55 a quarter of a revolution, through pawl 07 and collar 08. To retain the shaft in fixed position during the backward shifting of the sprocket thereon, I provide turret head 5 1 with four rearwardly projecting plates'105 each having a notch 10o therein for the reception of a lug 10? carried by a lever 108. (clee Fig. 4.) This lever is provided with :1 spring 109 which normally holds lug 107 in one of the slots 106. Shaft 12 is provided with a cam 110 which engages the lower end of lever 108 and retains the lug 107 out of engagement with a plate 105 while the turret shaft is being rotated through weight 102 and sprocket chain 100.

By the construction described, I have disclosed means whereby the holder spindles are rotated and the holders are intermittently advanced to bring the blanks carried thereby in operative relation to the difierent devices which operate thereupon. I will now describe the mechanism whereby the said spindles may be reciprocated during the time that the blanks are subjected to the action of said operating mechanism. Each spindle may be said to become in turn a coning spindle, a threading spindle, a gimlet-pointing spindle and a finishing-threading spindle, according to the position which it occupies in its cycle of rotation. \Vhen operating as a coning or pointing spindle, the blank must be advanced from the point toward the head and afterward retracted to permit it to be brought in line with the "first threading spindle.

The preliminary threading spindle, by, means of which the blank is subjected to the first thread-cutting operation, must be advanced in a similar manner to the coning spindle to dies to cut a thread on the blank from the point toward the head thereof. The temporary gimlet-pointing spindle, however, in practice is subjected to two reciprocations with respect to its cutting device and, in the case of a long bolt, issubjected to three such reciprocations, and the parts are so arrange that the'gimlet point is applied to the bolt during the backward movement of the spindle. The temporary finishing-threading spindle, whereby the thread cut by the second operation is finished, operates in the same general manner as the second or preliminary-threading spindle, and in this con nection it is noted that each holder is provided with an ejector which is automatically operated after the blank has received this finishing thread. For the purpose of securing these different operationsvof each spindle, the following construction is employed: 111 denotes a member which I shall enable its 'vided with a rearwardly projecting'sleeve designate as a drawback member. This drawback member is generally cylindrical in shape, as appears by reference to Figs. 1, 2, and 10, and is rovided at its front end with a circular ange 112 having in its periphery a series of radially extending rollers 113 located 90 degrees apart. Intermediate of its ends it is provided with upwardly and downwardly projecting flanges 114 and 115, the former flange being pro- 116 threaded thereinto, said sleeve containing a spiral spring 117-and a plunger 118 (see Fig. 9). This plunger is provided with a washer 119 servingas a stop to limit the forward movement thereof and has at its frontend a cupped head 120. Projection 115 I isprovided with a recess 115. Member 111 is provided with oppositely-arranged recesses 121 for'the reception of the forks 122 of a lever 123. This lever is pivoted to the frame 3 in any suitableimanner. The member 111 is also provided with an upwardly projecting rod 124 to which a spring 125 is attached, said spring beingsecured at its opposite end to a pin 126 carried by turret head 52. Member 111 is loosely mounted on shaft section The lower end of lever 123 is provided with a roller 127 which is adapted to be engaged by the forwardly projecting portion 128 of a cam mounted on shaft .12. 129 denotes a crosshead member which is also loosely mounted on shaft 55 at the rear of member 111. This latter memher is provided with longitudinal apertures adapting it to receive a pair of pins 130 projecting rearwardly from member 111, 'Memher 129 is provided at one side thereof with an integral forwardly projecting operatin' member 131 having its front end cuppe and is provided at its opposite side with a projection 132 through which there extends a bolt 133 having at its front end a cupped head 134, between-which and 1'32 there is interposed a spring 135. Thefront ends of 131, 134 and of projections 114 and 115 at the stage of the operation of the machine illustrated herein are in substantially the same vertical plane.

The rear ends of spindles 58, 59, and 61 are engaged respectively by members 131, 115, 134 and 114. Each of these spindles is provided with a collar 58, 59 60 and 61, respectively, which, when the draw-back member 111 is in the retracted position shown herein, are in engagement with the rollers 113 in flange 112.

Spindles 58 and 60 are operated through casting 129 and connections to be now described :136 denotes a vertical shaft which is rotatably supported within acasting 137 (see Figs. 1 and 2). Below "the casting 137 shaft 136 is provided with an angular arm 138 projecting therefrom and provided with a roller 139. This roller engages a cam 140 on shaft 12, being held in engagement with said cam by means of a spring 141 which is connected atone end to an arm 142 rigidly secured to the top of shaft 136 and at its other end to a pin on top of turret bearing52." Arm 142 is pro vided with a screw 143 which extends therethrough and bears against the rear face of the crosshead 129. cm 140 is shown in Figs. 24 and 25 which represent respectively a perspective view of the cam shaft 12 and a secti'onalview thereof. This cam is provided with a stop projection'which, after roller 12? on the lower end .of'lever 123 rides off the projection 128 on its cam, temporarily blocks the forward movement of crosshead 129 by spring-141. Inthe rear face'of proj jection 140, there is provided a stop projection'140 which temporarily-limits the forward movement of cros'shead 129 and of theconing and gimlet-pointing spindles, permitting the carrier to ibe urawn out of the way of the holder on the tee porary caning spindle. ,l Vhen the roller" '39 leaves sto 140*, the brosshead 129 moves forward until Pin 144 is carried by shaft 136 and projects through a slot in the casing 137.

In practice, the forward movement-given to the coning spindle after engagement with its knife is about three quarters of an inch, whereby the blank in holder 62 will be tapered a corresponding distance. When roller 139 is on the elevated portion of cam 140, crosshead 129 is held in its retracted position by means of a spring 146,-which is connected at one end to the crosshe'ad and at its other end to arm 142-, The forwardly projecting member 131 of crosshead 129 is providedwith an arm 147 which has an inwardly projecting roller 148 adapted to engage the front face of collar 58 and thereby retract spindle 58 when crosshead 129 is retralcted byspring 146.

will now describe the construction by 59 and 61, are reciprocated. The spindle which occupies the position ofspindle 59 is the spindle which causes the reliminary threading of the blank after 11; has been coned. The rear end of the, s indle which its movement is-arrestedby the engagement whereby.the threading spindles, represented v occupies the position of spin 1e 59 in the gimlet point.

said plunger being carried by the projection 11 1. By this construction, the two threading spindles are carried forward by means of the member 111, but the blank carried by the preliminary-threading spindle will enof-an inch before the blank carried by the other spindle enters its dies or cutters.

This gives the latter blank an opportunity to find its place in its die and enables such die to cut an accurate finished thread on the blank without tearing the thread or mutilating the When the roller on the lower end of lever 123 rides up on the elevated portion of cam 128, casting 111 is moved rearwardly and, through flange 112 and the collars 59 and 61*, moves the threading spindles rearwardly with it. During this rearward movement, means are provided for automatically holding the threading dies open, which means-will be described hereinafter. To prevent the threading holders from being'shot forward by the spring 125 when the threading dies are opened, 1 provide a stop 123 for lever 123 (see Fig. 1).. To reduce the friction between the collars on sary, in the case of short bolts, to impart two reciprocations to the spindle (and, in the case of long bolts, to impart three-reciprocations thereto); also to open the gin1let pointing device on or before the forward movements of the spindle and to close the same just before the rearward movements thereof, so that the coned end of the blank will be gimletpointed on the rearward movements of the spindle. At the same time, the gimlet-pointing spindle will be rotated in the left hand direction while being moved rearwardly, which will cause the threaded point thereon to form'a continuation of the thread cut on the body of the blank. The construction of the 'gimletpointing device and of the means for open ing and closing the same will be described is provided at its upper end with a roller 151 member 111 is in. its forward position.

which engages the rear face of collar temporarily in the position of 60*. A long spring 152 tends to force the upper end of the lever forwardly andthereby move the gimletpointing spindle forwardly.

153 denotes a stop arm supported by bracket 150. This arm is located at one side of the gimlet-pointing spindle and is in position to be engaged by its collar without engaging collar 112 on drawback member 111 when said member is in its forward position. Lever 149 is connected by means of link 154, lever 155, link 156, and rod 157 with the mechanism wherebythe gimlet-pointing cutteris reciprocated two or more times while The rearward movement of the gimlet-pointing spindle is caused by the left hand rotation thereof within a thrust-nut to Which'refer ence will be briefly made for the purpose of explaining the reciprocation of the spindle, particular attention being called to Figs. 1, 2, 7, 8 and 27.

The gimlet-pointing device comprises a two-part thrust nut one member 159 of which is provided with an internal thread of the 4 samepitchas the thread which has just been out upon the blank by the previous operation. This member is provided with a spring 160 which normally holds it away from the opposite member 161.

162 denotes a yoke one arm of which is link 164; connected to the inwardly-projccting end of anangle lever 165', which end is provided witha projection 166 engaging the upper end of the yoke, and by means of a link 167, arm 168, rock shaft 169, arm 170, link 171, lever 172, and cam 173 on shaft 12,

the member "159 will be moved inwardly to; close upon a blank whenever the end of level member'159 will be closed against the thread on the blank. The left hand rotation of the spindle will cause thespindle to be moved backwardly against the action of spring 152, while the cutting member on holder 161 is forming a gimlet point. This action will continue as long as the inner end of lever 172 is in either of the recessed portions of the cam 173. lVhen the inner end of lever 17 2 rides'up on the long elevated portion of cam 173, the two parts of the nut will be held open and no further cutting will be. done upon the blank. This long portion ofthe provided with an inclined face 163 engagmg a smnlar face on 159. By means of a eeaase cam aflords time for all the spindles to be drawn back and advanced another step in the cycle of operations. When cam 128 retracts member 111, the gimlet-p'ointin'g spindle is withdrawn from operative relation to its pointing device. As member 111 is moved rearwardly it rocks upper end of lever 14:9 rearwardly through an angular projection 111 engaging a projection 149 on the lever and holds such end of the lever.

back'a distance to clear the spindle'collars while the spindles are being shifted for the next operation. The particular manner of operating the cutter on holder 161 will be described hereinafter.

From the foregoing description, it will be apparent that means are provided for simultaneously rotating the various spindles having thereon theholders by means of which the blanks are'subjected to the various operations performed by the cutting devices, that means are provided for automatically recip rocating said spindles so as to subject the blanks carried thereby to the appropriate actions of said devices and that means are provided for simultaneously retracting all of said spindles preliminarily to shifting them from one set of devices to another. I will now describe the particular construction of the holders and of the various cutting Blank: holders-Four such holders are shown, designated respectively 62, 63, 64 and These holdersare identical in construction, hence it will be necessary to describe but one of the same in detail, particular reference being made to Figsn l, 13, 1 1, and

15. In the last three figures, the partsof the holder are shown in the positions which they occupy prior to the insertion of a blank thereinto. For convenience of reference, we

will assume that the holder illustrated is in the position of the holder designated 62.

.In Fig. 13 there is shown a front elevation of the holder; in Fig. 14: there is shown a vertical sectional view of the holder and associated parts; and in Fig. 15 a View, partly in section and'partly in elevation, taken at right angles to the positions show'n in Figs. 13 and 1 1. The front end of spindle 58 is provided with a head 174:, This head -is provided with a cylindrical portion 175 which merges with a tapered or conical por tion 176, which in turn merges "with the substantially cylindrical end portion 1T7.v The head is provided with a bore 178 extending inwardly from the front face thereof. WVithin said bore there is mounted the ejector plunger 17 9, having intermediate of the'ends thereof a head 180 which is of substantially the same diameter as the bore and centers the ejector therein.

181 denotes a spring surrounding the rear end of the plunger. The front end of the plunger extends through a nut 182 tapped When no blank is within the holder, the front end of the'ejector plungergis nearly flush with the front end of the holder proper.

The holder proper comprises a pair of";

jaws 183 which are slidably mounted in a' slot in the end 'of the spindle. The opposite sides of slot 184 form a guideway for the jaws 183.

' 1 denotes a pair of j aw-opera-ting levers pivotedon pins 186 extending transversely of the spindle head. The front end of each of said levers 185 is connected to a jaw 183 by means of a bolt 187. The rear ends of lovers 185 comprise each a long curved arm which extends beyond or to therear of the spindle head, the. rear ends of said arms being inwardly directed and engaging the conical surface of a sleeve '188 reciprocably mounted upon spindle 58. A pair offiat springs 189 are provided for the rearwardly extending arms of levers 185, said springs being mounted in recesses in the spindle head and tending todepress the rear ends of said levers and open the jaws 183, which action is preventeduntil the time when it is desirable to eject a blank by means of the conical surface of sleeve 188, Itwill be apparent that, should sleeve 188 be moved forwardly, springs 189 will operate to open the jaws 183. To accomplish this result, the

following construction is provided 190 denotes a pin having at'its front end a head which engages a flange on the rear end of sleeve 188. Foursuch pins are provided, one for each spindle, each pin being recipro cably mounted in the turret head 53 with its rear end projecting a considerable distance to the rear thereof. As will appear from Figs. 29 and 30, each pin is mounted in aslot 53 in the outer surface of each bushing 53 the flange at the front end of each bushing having a large slot for the reception of the head of the pin. 191 denotes a vertical 110 shaft which is pivotally supported at one side of the frame. *1 (SeeFigs. 2, 5 and 12.)

This shaft is provided with an arm 192 which i is adapted to engage the rear end of pin 190. For the purpose of rotating shaft 191 in'the appropriate direction to push the pin 190 forwardly, the lower end of said shaft is provided with an arm 193, to which there. is connected a long spring 1921 195 denotes a wedge-shaped-member supported. in the side of the frame, the lower end of said member being engaged by the rear end of lever 40 see Fig. 24). This lever, it will'be remembered, is'operat'ed by the curved lever-39 carried by shaft 31. WVhen lever 40 is depressed by lever 39 (which is, when the roller 45 enters the recess 44 in cam 43) wedge-195 is pulled downwardly by spring 195* which connects it with lever 40 and arm 193 is free to be moved by spring 194. Arm 192 then forces pin 190 forwardly, which the movement of the cam 4, thereby closing the jaws 183. The parts will be so timed that a blank will be brought by the carrier 33 into axial alinement with the opening between the jaws, between the'ejection of a finished blank by the plunger 179 and the closing of the jaws by the mechanism described. Furthermore, the carrier will hold the blank in this position until the'front end of the'blank has entered the jaws, whereupon the carrier will be retracted by shaft 31.

Blankcutting mechanism.-The blankcutting mechanism comprises generally a device for coning or pointing the blank, a pair of dies for threading the body of the blank after it has been coned or pointed, a cutting device for providing the blank with a ginilet point, and a pair of dies for finishing the thread cut by the former set of threading dies. The coning device will now be described, together with the connections forautomatically opening and closing the same. The coning device comprises generally an adjustable support for the side of the blank, a movable inclined knife or cutter, and means for automatically reciprocating said knife at an angle with'respect to the axis of the blank.

The construction of the coning device is shown in detail in Figs. 7,10, 21, 22, 23, 26 and 28. In these views, 198 "denotes an inclined knife, the same being supported by a holder 199 having its rear or inner end supported at one side of a transverse guideway 200. This guideway merges with an. inclined guideway extending toward the front of the machine at an angle of about 30 degrees with respect to the axis'of the blank, which in this case is parallel with the longitudinal axis of the machine. The knife and holder are mounted in this inclined guideway. In the outer or front portion of the inclined guideway there is mounted the member 201having its rear or inner face inclined and" provided thereon with a dovetailed projection 202. The corresponding end of the tool holder is provided with a corresponding inclined dove-tailed recess 203, whereby said holder may be reciprocated by the movement of said wedge. The tool holder is provided with a groove having therebeneath a ledge which supports the under surface of the knife 198. The top of the holder is beveled away from the front to rear, from a point slightly to the rear of the'wedge 204, to provide a space for the reception of chips. The groove for the tool extends frbni the'rear of wedge 201 to the cause rear or inner end of said holder, the bottom of said recess and the corresponding edge of the tool being shown in dotted lines in Fig. 22. The. front end of the tool is beveled to correspond to the wedge 20-1 and the inner face of the tool is provided with a refcess 205 for the reception of'a pin 208 carried by the holder. The front end of said pin is inclined and cooperates with a correspondingly inclined surface ofthe knife or tool, whereby said knife is securely locked inv place when the screw 20? is set up.

Member 201 is operated from shaft 12 by means of a link 208 pivotally connected to a lug 209 on the bottom of the wedge, said link being connected at its lower end to a lever 209 extending transversely of the machine and being pivoted to shaft 25. Link 208 is connected with lever 209 by a style of universal joint consisting of a link 210 having its opposite ends pivotally connected, at right angles with each other, to a strap 211 carried by lever 209 and to a lug 212 on t e bottom of link 208. Lever 209 is operated by a cam 213 on shaft 12. This cam is provided with along spiral operating surface 214. By this construction, member 201 is gradually depressed to force the tool or knife 198 diagonally across the end of the rotating blank. I The member 201 is elevated,

" after passing oil the surface 214 of the cam by means ofa long spring 221 connected with the end of lever209. The thrust of the knife against the 'side of the blank is taken up during this operation by a chuck member 215, which ismounted in the slide way 200 and is provided with a rounded recess 216 atone end thereof against which the body of the blank will bear. Member 215 is 'adjustably locked in position by means of a bolt 217 having a rearwardly projectingportion'218 provided with a reccss for .the reception of the downwardly projecting portion 219 of member 215 and with an upwardly extending projection 220 fitting in a corresponding longitudinal groove in 215. This construction is shown in Figs. '7, 16 and 23.

The preliminary and finishing threading dies comprise each a pair of reversible die members 222. These die members are substantially identical in construction and are each provided withmeans whereby the members of each set may be automatically opened to permit the withdrawal of the blank therefrom after the blank has been threaded and to be automatically closed thereafter. The

only difference between the two sets of threading dies is that the finishing dies deepen the groove between the threads cut by the other dies and trim and point the crown of the thread." It will be noted. by.

reference to Fig. 7, that the cutting surfaces of these dies are arranged at a different angle from that ordinarily employed with such dies. The cutting edges of each die member are' substantially in the same Vertical plane and are equidistant from the center of the aperture therebetween. cutting edges of the die members engage the bolt or blank at the same distance above and below the center, which results in cutting .a

plished by means of the construction illustrg. tedin Figs. 1, 2and 16. 223 denotesa sliding member mounted in a suitable guideway 224 on a bracket 225 supported by frame-work 3. The inner end ofthis slide is provided with inclined surfaces 226' adapted to engage the outer ends of a pair of levers 227, pivoted 'to said bracket at 228.

I The outer ends of these levers are each provided with an inclined surface 229-adapted to be en gaged by the inclined surfaces 226, and said outer ends are connected by a spring 230 which tends to draw such ends together against the action of the slide 223. The

inner ends of these levers are rounded-and are fitted in apertures in a pair of sliding blocks 231 which are mounted on top of bracket The die members '22 are mounted in gnideways 232 in said blocks and .are independently adjustable therein by means of adjusting screws 233. 243 denotes a' vertical cross-head having a hub 235 mounted on a suitable guide rod 236. Each end of cross-head 234 is provided with a sleeve 237 which receives the outer or front end of a rod 238 connected at its inner or rear end to slide It will be understood that both setsof threading dies are provided with similar sliding blocks 231 and with similar longitudinal slides 223; hence, tion ofthe upper slide and its connections will suiiice for both slides. Each rod 238 is provided with an adjustable stop collar 239 between which and sleeve 237 there is interposed a spring 240,-and the front or outer end of each rod 238 is provided with a similar stop collar 241. There is thus provided a yielding connection between -crosshead 235 and rods 238, whereby said rods may be pushed linwardly against a yielding resistance whici will prevent the breaking of the parts in case it should happen that a blank remains in either of the dies during the closing movement thereof A stop 242, (see Fig. 16) limits the inward or rearward movement of each'slide 223; i

The 7 the descrip- For the purpose of automatically operating the cross-head 234 and the dies con nected. therewith, I provide shaft 12 with a pair of cams 243 and 244, each of said cams being provided with a projection, 243* and 244 respectively, shown as located about 180 degrees apart and adapted to alternately engage a rolleron the lower end of the vertica'llever 245 pivoted to the front end of frame work The upper end of this lever is connected with a rod 246 which is threaded through the front end'of a yoke 24'? pivotally connectedto opposite sides of hub 235. lVith this construction, it will be apparent that the dies will be closed by projection 244*- on cam 244- and will remain closed until opened by projection 243 on cam'243. The projection 243 will be of sufiicient extent to permitthe blank to-be threaded the desired length before the dies are automatically opened. The parts are so arranged that the thrust nut of the 'g"imlet-pointing device comprises a movable member 159, which is provided with an internal thread of the same pitch as the threadalready'on the body of the blank fed thereto,"an d a smoot'h fixed member 161. Member 159- is provided with a spring 160 and is' operat'ed toward and from the oppositemember 161 of the nut by' I I means of the wedge on yoke or saddle'162- and said spring, said yoke or saddle being reciprocated by cam 173111 the manner described hereinbefore.- The opposite arm of the yoke or' saddle forms an abutment for member 161. While member 161 is fixed, means are provided for moving the holder for the gimlet-point cutter inwardly to causethe cutter thereon to engage the tapered end of the blank as the latter is withdrawn from the thrust nut. This keeps the cutter, in contact with the conical end of the blank during the retrograde movement thereof. For the purpose of so operating the holder 248, which is mounted in guideways, a vertical lever 248 pivoted to a bracket 249 is provided, said lever having at its upper end an adjustable screw 250, the inner end whereof is adapted to engage the outer end of the holder 248. This lever is provided with a downwardly projecting stud or shank 251, on which there is mounted an inwardlyprojecting operating arm 252, having its inner extremity rounded, (see Figs. 7 and 8).

253 denotes a spiral spring coiled around stud 251 and having one end thereof fas- 35 the gimlet point.

60 tion.

carried by lever 248 and-projecting into a recess in said arm. The lever thus constructed is operated from lever 149 and spring 152 through link 1, lever 155, link 156, and rod 157, hereinbefore referred to.

Onrod ,157 there is mounted a wedge block 256. This block has its widened end presented forwardly In operation, a spring 152 and lever L19 move spindle 60 forwardly, the front end of wedge block 256 engages arm and rocks the same against the action of spring 253, until it clears said arm, which arm is then returned to its normal position, being arrested against further movement by stop 255. As spindle 60 is 0 moved rearwardly by the next member 159 hereinbefore described, the inclined surface of wedge 256 rocks lever 248, throwing the upper end inwardly and feeding holder 248 inwardly, forcing the cutter against the tapered end of the blank. The taper or inclination of the wedge block 256 governs the shapeand depth of the thread cut by the gimlet-pointing tool. A spring 248 connected to the framework 3 and projecting 'from'lever 248 moves the holder 248 outwardly after, the wedge block disengages arm 252. 1

In Figs. 17, 18 and 19, I have shown the construction of the cutting tool which forms ried at the inner end of the holder 248, and 4 comprises a frusto-conical body 257 provided on the exterior thereof with several parallel corrugations or threads 258. A por- L tion of the periphery .of this tool is cut out as shown at 259 to provide clearance for the chips and a cutting edgefor the tool.

As will appear from Fig. 20, which represents a bottom plan view of the cutter, it

will be seen that the cutter is provided with a series of radial corrugations 260 adapted to engage corresponding radial recesses 261 on the disk 262 carried by the tool holder. This disk is provided with a pair of holes .50 263 for the reception of a pin 264. Oneof these apertures extends through the groove" of a corrugation and the other through a ridge, and is adapted to engage a corrugation on the base of the cutter to prevent rotation thereof. The tool is secured to disk 262 by means of a bolt 265. As the edge of the cutter becomes worn, it will be necessary to grind away only an amount of the cutter body equal to half the width of a corruga- For instance, if the corrugations are 1/16 wide, it will be necessary to grind away only 1/32" of the body of the cutter in sharpening the same. The cutting tool 257 is mounted in a recess in the inner end of the holder 2&8 at the rear of nut member This cutting tool is car- 1 adjustable on framework 3 toward and from the turrethead bearing 51. For the same reason, carrier 33 is longitudinally adjustable along its shaft 31, through a long keyway on said shaft to which arm 32 is keyed. To prevent the rotation of the drawback member 111 on the shaft 55, I provide flange 115 with a rearwardly projecting pin 115" which extends through a slot in the le ver 123, as shown in Figs. 1 and 10. Furthermore, when said member 111 is in its rearmost position, the rear ends of the spin dles clear slightly the sockets provided therefor in member 111 and crossdiead 12 5}, enabling the turret heads to be rotated a quarter revolution without any hindrance by the engagement of the spindles with their sockets. Fig. 9 shows the position occupied by the end of the finishing-threading spindl when Working. Having described my invention, I claim 1. In a machine of the charutter set forth, the combination of a eoning device, and preliminarythreading, gimlet-pointing and tinishingthreading devices adapted to be opened and closed to operate upon-a blank,

all-of said devices being arranged around a holders successively in operative relation to said devices, means for automatically causing said holders successively. to receive a blank and toeject av fi'nished blank, means for subjecting the blanks in the holders successively to the operation of the aforesaid devices, and means for automatically open ing and closing-the threading and gimlet pointing devices, substantially as specified.

2. Ina machine of the charactenset forth, the combination of caning, preliminarythreading, gimlet-pointing and finishingthreading devices arranged around a common center and equidistant therefrom. a plurality of blank holders corresponding in number and arrangement with said devices, spindles for said holders, a support for said spindles, meansfor rotating said spindles, means for imparting intermittent rotary movement to said support to bring the holders successively in operative relation to .said devices, meansfor automatically recipsponding blanks during the movement ofthe holders toward the same, and meansfor causing the gimlet-pointing device to oper ate upon the corresponding blank during the reverse movement of the holder corresponding thereto, substantially as specified.

3. In a machine of the character set forth, the combination of coming, preliminar threading, gimlet-pointing, and finishingthreading devices arranged around a common center, a rotary support, a plurality of holders corresponding to said devices and carried by said support, means for supplying blanks to said holders, means fornitermittently. rotating said support to bring the holders thereon successively in' alinement with each of the aforesaid devices, spindles mounted in said support and each connected to a holder, means for reciprocating said spindles toward and from said devices during an inactive period of sa d support, means for rotating -said spindles during such period, means for automatically opening each holder after it has been brought opposite the finishing threading device, means for ejecting a blank therefrom, means for automatically supplying a new blank thereto, and means for causing the holder to automatically close on said blank, substantially as specified.

4:. In a machine of the character set forth,

the combination of coning, preliminarythreading, gi'mletpointing, and finishingthreading devices arranged around a commoncenter, a rotary support, a plurality of holders corresponding to said devices and carried by said support, ,means for supplying blanks to saidholders, means for intermittently rotating said support to .bring the holders thereon successively in alinement with each of the aforesaid devices, spindles mounted in said support and each connected to a holder, means for reciprocating said spindles toward and from said devices, means for rotating said spindles, means for automatically opening each holder after it has been brought opposite the finishing-threading device, means for ejecting a blank there from, means for automatically supplying a new blank thereto, and means for causing said holder to automatically close on said blank, substantially as specified:

5. In a machine of the character set forth, the combination of coning, preliminarytlireading, gimlet-pointing, and finishinging'blanks to said holders, means for inter-' mittently rotating said support to bring the holders thereon successively in alinement with each of the aforesaid devices, means for imparting to the holder temporarily in alinement wlththe gimlet-pointing device a plurality of reciprocations, and means for im-' parting to the remaining holders a single reciprocation, substantially as-specifie'd.

6. In a machine of the character set forth, the combination of a plurality of cutting de vices arranged. around a common center, a plurality of blank holders also arranged around a common center, a spindle connected Witheach of said holders, a rotary support forsaid spindles, intermeshing gears on said spindles, adrive shaft having thereon a gear adapted to mesh successively with the spindle gears, and means for intermittently rotating said support to bring each spindle gear successively in mesh with the gear on the driving shaft, substantially as 7. In a machine of the character set forth, the combination of a plurality of cutting devices arranged around a common center, a plurality of blank holders also arranged around a common center, a spindle connected with'each of said holders,'a rotary support for said spindles, intermeshing gears on said spindles, a drive shaft having thereon a gear adapted to mesh successively i with the splndle gears, means for mterm1t-- tently rotating said support to bring each spindle gear successively in mesh withthe gear on the drive shaft, and means for automatically reversing the rotation of said gears during the intermittent rotary movement of the support, substantially as specified.

S. In a machine of the character set forth,

the combination of a plurality of chucks arranged around a common center, a spindle connected With each of said chucks, a rotary support for said spindles, means for intermittently rotating said support, driving means adapted tov engage each spindle succes'sively to rotate-the same, driving connections between said spindles, whereby they are drivenconsecutively in reverse direc-- tions, and means for automatically reversmg the rotation of the spindles during the in termittent rotation of the support, substantially as specified.

9. In a machine of the character setforth, the combination of an even number of tools arranged around a common center. a plurality of blank holders also arranged around such common center and corresponding in number and arrangement to said cutting devices, a spindle for each of saidholders, a rotary support for all of said spindles, in-

termeshing gears on said spindles, a drive shaft, a driving gear thereon adapted to mesh with the gears'on said spindles sue-- gears on said spindles,-a drive shaft having a gear adapted to mesh with the spindle gears successively, a pulley on each of said spindles, a pulley on'said drive shaft, a pulley arranged on the opposite sideof the rotary support from said drive-shaft pulley, and a belt extending around the last mentioned pulleys and adapted to engage the pulleys on the spindles, substantially as specified.

11. In a machine of the character set forth, the combination-of a rotary support, a plurality of tools arranged around a common center, a plurality of spindles mounted in said. support and arranged around such common center, intermeshing gears on said spindles, a drive shaft having a gear adapted to mesh with the spindle gears successively, a pulley on each of said spindles, a pulley onsaid drive shaft, a pulley arranged on the opposite side of the rotary support from said drive shaft pulley, and a belt extending around the last mentioned. pulleys and engaging the pulleys on the top and bottom. spindles, substantially as specified.

12. In a machine of the character set forth, the combination of four tools arranged around a common center. and 90 degrees apart, a rotarysupport having four sp ndles mounted therein and at an angular distance of 90 degrees apart, means for rotating said support intermittently a distance of degrees, intermeshing gears on said spindles, a pulley on each of said spindles,

a drive shaft located'at one side of said supportand having thereon a drive gear adapt-- ed to mesh successively with the spindle gears, a pulley on the drive shaft, a pulley on the opposite side of the support'from. the drive shaft, and a belt extending around the last two pulleys and the pulleys on the 'top End bottom spindles, substantially as specied. i

13. In a nlachine of the character set forth, the combination of a rotary support having an even number of spindles mounted therein equidistant apart and equidistant from the center of said support, means for rotating said support intermittently the pulleys and the angular distance between a pair of spindles,

' intermeshing gears on said spindles, a pulley on each of sald spindles, a drive shaft located at one side of said support and having thereona drive gear adapted to mesh successively with the spindle gears, a pulley on the drive shaft, a pulley on the opposite side of the support from the drive shaft, and a belt extending around the last two pulleys on the top and bottom, spindles, substantially as specified.

14;. In a machine of the character set forth, the combination of a plurality of tools arranged around a common center, a plurality of similarly arranged blank holders, a rotary support therefor, means for rotating said blankholders, and means for automatically rotating the support the angular distance between a pair of adjacent tools, said means comprising a shaft con nected with the rotary support, an operat ing shaft, connections between said shafts for automatically rotating the former shaft the aforesaid distance, and means for locking the former shaft against rotation, substantially as specified.

15. In a machine of the character set forth, the combination of a plurality of tools arranged around a common center and equidistant therefrom and from each other, a plurality of similarly arranged blank holders, a rotary support therefor, means for rotating said blank holders, and means for automatically rotating the support the angular distance between a pair of adjacent tools, said means comprising a shaft connected with the rotary support, a continuously rotating shaft, a pawl-and-ratchet connection between said shafts, a locking device for preventing the rotation of the former shaft, and means controlled by the rotation of the latter shaft for temporarily putting the locking device out of operation,

nected with the rotary support, a rotary shaft adjacent thereto, connections whereby the rotation of the latter shaft automatic ally imparts an intermittent rotation to the former shaft, a pawl normally locking the former shaft against rotation, and a cam carried by the'latter shaft and arranged to trip said pawl, substant ially as specified.

17. Ina machine of the character set forth, the combination of a plurality of tools, a plurality of blank holders corre- 

